JP2019159105A - Alarming horn for vehicle - Google Patents

Abstract

To provide an alarming horn for a vehicle which can suppress entrance of foreign substances and change of characteristics related to alarm sound.SOLUTION: The alarming horn for a vehicle includes: a housing 11; a coil and a fixing iron core in the housing 11; a movable iron core, which is displaced in the axial direction to the fixing iron core by a magnetic attraction force; and a vibration plate, which vibrates in association with the axis-directional displacement of a movable iron core. The alarming horn for a vehicle has a pressure adjustment unit 5, which is deformed according to an expansion state or a shrinkage state of gas in the housing 11. The pressure adjustment unit 5 is formed in the housing 11 to block gas from flowing through a hole part 113 by blocking the hole part 113 in the housing 11. The alarming horn for a vehicle can suppress entrance of foreign substances and change of characteristics related to alarm sound.SELECTED DRAWING: Figure 2

Description

  The disclosure in this specification relates to a vehicle alarm device that generates an alarm sound.

  Patent Document 1 discloses a vehicle alarm device. As shown in FIG. 1, Patent Document 1 discloses a serpentine tube attached to a vent hole of a case via a synthetic material portion. Patent Document 1 discloses a vent formed by a tubular projecting portion provided in a case as shown in FIG. A cap made of an elastic material that holds the filter is attached to the tubular projecting portion. With any of these configurations, a vehicle alarm device is provided that allows air to flow into the case and prevents water from entering the case.

Japanese Patent Publication No. 52-41639

  In the vehicle alarm device, as disclosed in Patent Document 1, it is required to prevent malfunction caused by entry of foreign matter such as water and dust into the inside. Moreover, in order to prevent intrusion of foreign matter, a configuration in which the inside of the case is sealed without providing a vent hole can be employed. However, in this case, there is a problem in that the contact opening / closing operation failure occurs due to the volume change of the gas in the case with the temperature change, and the characteristics related to the alarm sound change.

  An object of the disclosure in this specification is to provide a vehicle warning device that can suppress both intrusion of foreign matter and a change in characteristics related to a warning sound.

  A plurality of aspects disclosed in this specification adopt different technical means to achieve each purpose. Further, the reference numerals in parentheses described in the claims and in this section are examples showing the correspondence with specific means described in the embodiments described later as one aspect, and limit the technical scope. is not.

  One of the disclosed vehicle sounders includes a housing (11), a coil (20) that is housed in the housing and generates a magnetic force when energized, a fixed iron core (22) housed in the housing, and a coil. The movable iron core (4) that is displaced in the axial direction toward the fixed iron core by the magnetic attraction force generated by the energization of the housing, and is fixed to the housing and the movable iron core and vibrates in accordance with the axial displacement of the movable iron core. A vibrating plate (3) to be vibrated and a hole (113) provided in the housing are provided on the housing so as to block gas from entering and exiting through the hole, and the gas in the housing is expanded and contracted. And a pressure adjusting part (5; 105; 305; 405) that deforms according to the above.

  According to this vehicle alarm, since the pressure adjustment unit blocks the gas from entering and exiting through the hole of the housing, the pressure adjustment unit can prevent foreign substances from entering the housing. It is possible to prevent malfunction due to intrusion. Furthermore, since the pressure adjustment part deforms according to the expanded and contracted state of the gas in the housing, for example, it deforms following when the volume of the gas in the housing is reduced, forcibly moving the movable core toward the fixed core The action of the gas in the housing can be suppressed. That is, the vehicular horn can prevent the contact opening / closing operation failure caused by the contraction of the gas in the housing, so that it is possible to suppress the change of the timbre of the warning sound. Therefore, this disclosure can provide a vehicular audible alarm capable of suppressing both intrusion of foreign matter and a change in characteristics related to an alarm sound.

  One of the disclosed vehicle sounders includes a housing (11), a coil (20) that is housed in the housing and generates a magnetic force when energized, a fixed iron core (22) housed in the housing, and a coil. The movable iron core (4) that is displaced in the axial direction toward the fixed iron core by the magnetic attraction force generated by the energization of the housing, and is fixed to the housing and the movable iron core and vibrates in accordance with the axial displacement of the movable iron core. A vibrating plate (3) to be vibrated and a hole (113) provided in the housing are provided on the housing so as to block gas from entering and exiting through the hole, and the gas in the housing is expanded and contracted. And a pressure adjusting section (205) that is displaced with respect to the housing.

  Even with this vehicle alarm, the pressure adjustment unit blocks the entry and exit of gas through the hole in the housing, so the pressure adjustment unit can prevent foreign objects from entering the housing, and foreign objects can enter. It is possible to prevent malfunction due to. Furthermore, since the pressure adjustment part is displaced with respect to the housing according to the expansion state and contraction state of the gas in the housing, for example, when the volume of the gas in the housing is reduced, it is displaced to the hole side to fix the movable iron core. Suppresses the action of gas in the housing that is forced to move toward the iron core. Due to this effect, the external force applied to the movable iron core due to the contraction of the gas in the housing can be suppressed to prevent the opening / closing operation failure of the contact portion, so that the timbre of the alarm sound can be suppressed from changing. Therefore, both the intrusion of foreign matter and the change in characteristics related to the alarm sound can be suppressed by this vehicle alarm.

It is the longitudinal cross-sectional view which showed the vehicle alarm device of 1st Embodiment. It is the front view which looked back what removed the movable iron core, the diaphragm, the resonance board, etc. from the vehicle alarm sound of FIG. It is the fragmentary sectional view which looked at the pressure adjustment part in the III-III cut surface of FIG. It is the fragmentary sectional view which showed each deformation | transformation state when the air in a housing expand | swells and shrink | contracts about the pressure adjustment part of 1st Embodiment. It is the fragmentary sectional view which showed the pressure adjustment part of 2nd Embodiment. It is the fragmentary sectional view which showed each deformation | transformation state when the air in a housing expand | swells and shrink | contracts about the pressure adjustment part of 2nd Embodiment. It is the fragmentary sectional view which showed the pressure adjustment part of 3rd Embodiment. It is the fragmentary sectional view which showed the deformation | transformation state when the air in a housing expand | swells about the pressure adjustment part of 3rd Embodiment. It is the fragmentary sectional view which showed the deformation | transformation state when the air in a housing shrink | contracts about the pressure adjustment part of 3rd Embodiment. It is the fragmentary sectional view which showed the pressure adjustment part of 4th Embodiment. It is the fragmentary sectional view which showed the deformation | transformation state when the air in a housing expand | swells about the pressure adjustment part of 4th Embodiment. It is the fragmentary sectional view which showed the deformation | transformation state when the air in a housing shrink | contracts about the pressure adjustment part of 4th Embodiment. It is the fragmentary sectional view which showed the pressure adjustment part of 5th Embodiment. It is the elements on larger scale which showed the pressure adjustment part of 5th Embodiment. It is the fragmentary sectional view which showed the deformation | transformation state when the air in a housing expand | swells about the pressure adjustment part of 5th Embodiment. It is the fragmentary sectional view which showed the deformation | transformation state when the air in a housing shrink | contracts about the pressure adjustment part of 5th Embodiment.

  Hereinafter, a plurality of modes for carrying out the present disclosure will be described with reference to the drawings. In each embodiment, parts corresponding to the matters described in the preceding embodiment may be denoted by the same reference numerals, and redundant description may be omitted. When only a part of the configuration is described in each mode, the other modes described above can be applied to the other parts of the configuration. Not only combinations of parts that clearly show that combinations are possible in each embodiment, but also combinations of the embodiments even if they are not specified, unless there is a particular problem with the combination. Is also possible.

(First embodiment)
The vehicle alarm device 1 of the first embodiment will be described with reference to FIGS. A vehicle sounder 1 shown in FIGS. 1 and 2 is a device that is mounted on a vehicle such as an automobile or a motorcycle and generates a warning sound to the outside, and is also called an electromagnetic horn. The vehicle alarm device 1 is used as a device for notifying a vehicle owner in a remote location of an abnormality by an alarm sound when an abnormality occurs in the vehicle such as vehicle theft or vandalism. Also called. The vehicle alarm device 1 is used as a device that emits an alarm sound to the outside of a vehicle when a predetermined operation unit in the vehicle is operated. The predetermined operation unit is a horn switch provided on a steering wheel or a handle, for example, which is operated by an occupant. The vehicle alarm 1 is an electromagnetic alarm that generates an alarm according to the output voltage.

  The vehicle alarm device 1 is attached to a vehicle side member such as a front portion of a vehicle, for example, a front portion of a radiator, via a stay. The vehicle alarm device 1 is attached to the vehicle in a posture in which the movable iron core 4 is positioned in front of the fixed iron core 22 and the axial directions of the movable iron core 4 and the fixed iron core 22 are aligned in the front-rear direction. The vehicle alarm device 1 includes a bottomed cylindrical housing 11 and an electromagnetic coil portion 2 housed and fixed near the center of the housing 11. The electromagnetic coil unit 2 includes a coil 20, a bobbin 21, and a fixed iron core 22. The coil 20 is configured by winding a winding around a resin bobbin 21. The vehicle alarm 1 is a plate-like member, and includes a diaphragm 3 that is fixed to the housing 11 so as to cover the open end 112a of the housing 11 that constitutes the outer shell. The diaphragm 3 is also called a diaphragm. The diaphragm 3 vibrates with the displacement of the movable iron core 4 in the axial direction, and vibrates the air by this vibration.

  The vehicle alarm device 1 includes a movable iron core 4 that is fixed near the center of the diaphragm 3 and is disposed to face the fixed iron core 22, and a stay that is fixed to the bottom of the housing 11. The electromagnetic coil unit 2 is installed around the axis of the housing 11. The housing 11 and the diaphragm 3 are formed by pressing an iron-based magnetic material plate into a concave shape in order to constitute a part of the magnetic circuit of the electromagnetic coil section 2. A center hole 3a of the diaphragm 3 and a center hole of the resonance plate 6 are fitted to the small diameter portion 41 located at the front portion of the movable iron core 4, and the movable iron core 4, the vibration plate 3 and the resonance plate 6 are caulked. It is fixed and integrated.

  The housing 11 includes a disc-shaped bottom portion 110 located at the rear end, an intermediate flat portion 111 projecting in a disc shape from a front end portion formed by raising the peripheral edge of the bottom portion 110 in a cylindrical shape, and an outer peripheral portion located at the front end. 112, and is integrally formed. The outer peripheral edge portion 112 is formed so as to protrude radially outward from a front end portion formed by rising the peripheral edge of the intermediate flat portion 111 forward in a cylindrical shape. The outer peripheral edge of the diaphragm 3 is fixed to the housing 11 by being wound and wound around the outer peripheral edge 112.

  The bobbin 21 includes a cylindrical portion 210, a flange portion 211 that protrudes in a disc shape from an end portion on the diaphragm 3 side of the cylindrical portion 210, a first fixed portion 212 that protrudes outward from the flange portion 211, and a second covered portion. The fixed portion 213, the third fixed portion 214, and the like are integrally formed. A coil 20 formed by winding a winding is provided on the outer peripheral surface of the cylindrical portion 210. A fixed iron core 22 is provided concentrically with the bobbin 21 and the coil 20 inside the cylindrical portion 210. The flange portion 211 forms an end surface that extends from the front end portion of the tubular portion 210 to the periphery of the bobbin 21. The flange portion 211 is a portion that covers the front end portion of the coil 20 and the end portion on the diaphragm 3 side.

  A bobbin 21 having a fixed iron core 22 and a coil 20 is provided on the front side of the bottom 110 of the housing 11. The front end surface of the fixed iron core 22 faces the front end surface of the movable iron core 4. The fixed iron core 22 exists inside the tubular portion 210 of the bobbin 21. The side surface of the fixed iron core 22 is surrounded by the cylindrical portion 210. A gap of a predetermined distance, a so-called air gap, is formed between the front end surface of the fixed core 22 and the front end surface of the movable core 4 facing the front end surface when the coil 20 is not energized. That is, when the coil 20 is not energized, the distal end surface of the fixed iron core 22 and the distal end surface of the movable iron core 4 are separated from each other.

  The intermediate flat portion 111 of the housing 11 is laminated with a first fixed portion 212, a movable contact support plate 7 made of an elastic metal spring material, and a conductive metal fixed contact support plate 8. Yes. An insulating member is interposed between the movable contact support plate 7 and the fixed contact support plate 8. These laminated members are caulked and fixed integrally by a metal first rivet 90 fixed to the intermediate flat portion 111. One end portion of the winding extending from the coil 20 is installed between the movable contact support plate 7 and the first fixed portion 212 in a state where the insulating film covering the conductor is peeled off. It is pressed by the head of the first rivet 90 along with the caulking. In this way, one end of the winding and the movable contact support plate 7 are electrically connected.

  A second fixed portion 213 is stacked on another portion of the intermediate flat portion 111. The second fixed portion 213 is caulked and fixed to the housing 11 by a metal second rivet 91 fixed to the intermediate flat portion 111. Further, the other end portion of the winding extending from the coil 20 in the electromagnetic coil portion 2 is installed along the periphery of the shaft portion of the second rivet 91 in a state where the insulating film covering the conductor is peeled off. As the rivet 91 is caulked and fixed, it is pressed against the head of the second rivet 91. In this manner, the other terminal portion of the winding is pressed against the head of the second rivet 91, whereby the conductor at the terminal portion of the winding and the second rivet 91 are conducted. The conductor of the winding is made of a copper wire, a conductive material other than the copper wire, or a material in which different conductive substances are combined.

  The second rivet 91 is insulated from the housing 11 by an insulating member. The second rivet 91 is electrically connected to the connector terminal inside the connector. The positive potential of the battery is led to the connector terminal via the horn switch. Therefore, the second rivet is a rivet positioned on the current input side in the electromagnetic coil unit 2. The vehicle alarm device 1 may further include a connector terminal that conducts to a terminal portion of a winding that is pressed against the movable contact support plate 7 by caulking and fixing the first rivet 90.

  A third fixed portion 214 is stacked on another portion of the intermediate flat portion 111. The third fixed portion 214 is fixed to the housing 11 by a metal third rivet 92 that is caulked and fixed to the intermediate flat portion 111. The bobbin 21 is fixed to the housing 11 at three locations: a first rivet 90, a second rivet 91, and a third rivet 92.

  The movable contact support plate 7 is provided with a movable contact portion 70 that protrudes toward the fixed contact support plate 8. The fixed contact support plate 8 is provided with a fixed contact portion 80 that protrudes toward the movable contact support plate 7 at a position corresponding to the movable contact portion 70. The movable contact portion 70 and the fixed contact portion 80 are installed so as to face each other in the axial direction. The movable contact portion 70 constitutes a normally closed contact that is urged toward the fixed contact support plate 8 by the spring force of the movable contact support plate 7 and contacts the fixed contact portion 80 when the coil 20 is not energized. .

  A large-diameter portion 42 is formed on the entire outer peripheral surface of the movable iron core 4 so as to protrude outward in diameter from other portions. The large diameter portion 42 can be integrally formed by cold forging or the like. When the movable iron core 4 is attracted by the fixed iron core 22 magnetized when the coil 20 is energized, the large diameter portion 42 is displaced rearward, that is, toward the fixed iron core 22 side. Therefore, the large-diameter portion 42 constitutes a pressing portion that comes into contact with the pressed portion near the horn center portion of the movable contact support plate 7 and presses this toward the rear or the fixed iron core 22 side. When the large-diameter portion 42 pushes the pressed portion toward the fixed iron core 22, the fixed contact portion 80 and the movable contact portion 70 are separated from each other, the contact state between them is released, and the contact portion is opened.

  The movable iron core 4 is fixed to the diaphragm 3 by caulking the small-diameter portion 41 at the front portion of the movable iron core 4 in a state of being inserted into the center portion of the diaphragm 3. The fixed iron core 22 is fixed to the mounting stay using a fixing means such as caulking together with the center portion of the bottom portion 110 of the housing 11. The fixed iron core 22 may be fixed to the stay together with a central portion of the bottom portion 110 of the housing 11 using means such as nut tightening.

  As shown in FIGS. 2 and 3, the housing 11 is provided with a hole 113 penetrating in the thickness direction. The hole 113 is an opening through the intermediate flat portion 111. Therefore, the hole 113 constitutes a passage that connects the inside and the outside of the housing 11. The pressure adjusting unit 5 is a plate-like body that closes the passage and blocks the inside and the outside of the housing 11 and is formed of a material that is easily elastically deformed. The pressure adjusting unit 5 is a rubber plate-like body fixed to the housing 11 so as to fill the hole 113, and is formed of a material that cannot transmit a fluid containing gas. Since the pressure adjusting unit 5 is provided at a position where the hole 113 is closed, it can be said that the pressure adjusting unit 5 forms a part of the housing 11. Therefore, the pressure adjusting unit 5 is fixed to the housing 11 so as to cover the hole 113 and block gas from entering and exiting through the hole 113. The pressure adjusting unit 5 is easily elastically deformed when it receives an external force at a plate-like portion filling the hole 113. The pressure adjusting unit 5 also functions to prevent dust, dust, sand, and the like from entering the inside of the housing 11 from the outside. The pressure adjusting unit 5 functions to repel water toward the hole 113 or prevent water from entering through the hole 113 when the vehicle alarm 1 is flooded.

  As shown in FIG. 3, the pressure adjusting unit 5 includes a fixed part 50 fixed to the peripheral part of the hole 113 in the housing 11 via an adhesive, and a plate shape formed inside the fixed part 50. It has the part 51 and is integrally formed. The plate-like portion 51 is elastically deformed in a state where the gas built in the housing 11 is neither in a state of expansion nor in a state of contraction, that is, in a natural state where no external force is applied to the plate-like portion 51. It is provided in a form that is not. In other words, the plate-like portion 51 is provided in a state that does not sag in the natural state described above. Since the plate-like portion 51 is made of an elastically deformable material such as an elastomer, the plate-like portion 51 functions as a stretchable film that can expand and contract with respect to an external force acting on the surface of the plate-like portion 51.

  The fixed portion 50 is provided over the entire outer periphery of the plate-like portion 51 so as to surround the plate-like portion 51. The fixed part 50 is a U-shaped section that opens to the outside of the diameter. The fixed portion 50 is fixed to the housing 11 in a state where the fixed portion 50 is fitted from the inner side to the peripheral portion of the hole 113. The fixed part 50 is fixed in a state where the peripheral part of the hole 113 is supported so as to be sandwiched from both sides in the thickness direction. With this configuration, the fixed portion 50 cannot be displaced with respect to the peripheral portion of the hole 113. The plate-like portion 51 is also a film-like body that is displaceable with respect to the hole 113 because only the outer peripheral edge is formed integrally with the fixed portion 50.

  As shown in FIG. 4, the pressure adjusting unit 5 absorbs the volume change of the gas in the housing 11 by elastically deforming the plate-like part 51 according to the expanded state and contracted state of the gas in the housing 11. It can respond flexibly. The expanded state and the contracted state are generated by the temperature change of the gas in the housing 11. For example, when the temperature of the contact portion is repeatedly increased between the closed state and the open / closed state for a short period of time, or when the vehicle alarm 1 is cooled with water, the ambient temperature rapidly increases or It can be assumed that it will happen when descending.

  The pressure adjusting unit 5 shown by a solid line in FIG. 4 is in an expanded state in which the volume of gas in the housing 11 is increased due to a temperature change or the like. Since the internal pressure of the housing 11 is larger than the external pressure, the pressure adjusting unit 5 in this expanded state is bent and elastically deformed so as to expand outward or rearward. The pressure adjusting unit 5 can accommodate the volume of the increase in the internal gas in the housing 11 by the amount that the plate-like portion 51 is bent outward. By this action, the vehicle alarm device 1 can suppress the external force from acting on the movable iron core 4 due to the increase in the volume of the internal gas.

  The pressure adjusting unit 5 indicated by a broken line in FIG. 4 is in a contracted state in which the volume of the gas in the housing 11 is reduced due to a temperature change or the like. Since the internal pressure of the housing 11 is smaller than the external pressure, the pressure adjusting unit 5 in the contracted state is bent and elastically deformed so as to be recessed toward the inside or the front of the housing 11. The pressure adjusting unit 5 can form a volume that follows the volume of the decrease in internal gas by the amount that the plate-like portion 51 is bent toward the inside of the housing 11 in this way. By this action, the vehicle sounder 1 can suppress the external force from acting on the movable iron core 4 due to the volume reduction of the internal gas.

  The hole 113 and the pressure adjusting unit 5 are provided at positions that do not overlap in the axial direction of the movable iron core 4 with respect to any of the bobbin 21, the movable contact support plate 7, and the fixed contact support plate 8 in the housing 11. Is preferred. This configuration contributes to the pressure adjusting unit 5 following elastically deforming and following in accordance with the expansion state and contraction state of the internal gas.

  Next, the operation of the vehicle sounder 1 will be described. When the horn switch is turned on, a current from the in-vehicle power source flows from the connector terminal to the second rivet 91, the other end of the winding, and the coil 20 in this order. Furthermore, the current is supplied to one end of the winding, the movable contact support plate 7, the movable contact portion 70, the fixed contact portion 80, the fixed contact support plate 8, the first rivet 90, the housing 11, the fixed iron core 22, the stay, the vehicle body ( Flows in the order of grounding).

  In the vehicle alarm 1, the other end portion of the winding and the second rivet 91 are conducted, and the one end portion of the winding and the movable contact support plate 7 are conducted. Thereby, the electromagnetic force of the electromagnetic coil portion 2 acts on the gap between the movable iron core 4 and the fixed iron core 22, and the movable iron core 4 is attracted to the fixed iron core 22. When the movable iron core 4 is moved in the axial direction by the magnetic attractive force generated from the fixed iron core 22, the diaphragm 3 is deformed by moving the central portion integrally with the movable iron core 4 while the peripheral edge portion is fixed. Due to the displacement of the movable iron core 4, the large-diameter portion 42 of the movable iron core 4 presses the pressed portion of the movable contact support plate 7 to separate the movable contact portion 70 from the fixed contact portion 80. As a result, the energization of the electromagnetic coil unit 2 is interrupted and the electromagnetic force disappears, so that the movable iron core 4 returns to the original position by the elastic force of the diaphragm 3, thereby the movable contact unit 70 and the fixed contact unit. The closed state with 80 is revived.

  Further, when the voltage applied to the coil 20 increases, the movable iron core 4 approaches the fixed iron core 22 by the magnetic attractive force from the fixed iron core 22. By repeating these operations, the collision of the movable iron core 4 with the fixed iron core 22 is repeated, the diaphragm 3 and the resonance plate 6 vibrate at a high frequency, and sound waves are emitted forward, and a warning sound is generated outside. be able to.

  The effect which the vehicle alarm 1 of 1st Embodiment brings is demonstrated. The vehicle alarm 1 includes a housing 11, a coil 20 and a fixed iron core 22 housed in the housing 11, a movable iron core 4 that is axially displaced toward the fixed iron core 22 by a magnetic attractive force, and a movable iron core 4. And a vibration plate 3 that vibrates in accordance with the displacement in the axial direction. The vehicle sounder 1 includes a pressure adjusting unit 5 that is deformed according to the expanded state and contracted state of the gas in the housing. The pressure adjusting unit 5 is provided in the housing 11 so as to cover the hole 113 provided in the housing 11 and block the gas from entering and exiting through the hole 113.

  According to the vehicular horn 1, the pressure adjusting unit 5 blocks gas in and out of the housing 11 through the hole 113. For this reason, since the pressure adjustment part 5 can suppress that the foreign material from the outside penetrate | invades in the housing 11, it can prevent the malfunctioning of the vehicle alarm device 1 by the penetration | invasion of a foreign material. Further, since the pressure adjusting unit 5 is deformed according to the expanded state and contracted state of the gas in the housing 11, for example, when the volume of the gas in the housing 11 is reduced, the pressure adjusting unit 5 is deformed following this. By this action, it is possible to suppress an external force that forcibly moves the movable iron core 4 toward the fixed iron core 22 due to the gas in the housing 11. In other words, the vehicle alarm 1 can prevent the opening / closing operation failure related to the movable contact portion 70 and the fixed contact portion 80 that may be caused by the contraction of the gas in the housing 11, so that the tone of the alarm sound changes. Changes in various characteristics can be suppressed.

  The pressure adjusting unit 5 is preferably a rubber plate-like body fixed to the housing 11 so as to fill the hole 113 penetrating the housing 11. According to this configuration, it is possible to provide the pressure adjusting unit 5 in which the portion that can elastically deform in the pressure adjusting unit 5 and can follow the volume change of the gas in the housing 11 does not protrude greatly from the outer surface of the housing 11. Thereby, the physique of the vehicle sounder 1 including the pressure adjustment part 5 can be suppressed, and the pressure adjustment part 5 which is hard to be damaged by the external force applied from the outside can be provided.

(Second Embodiment)
In the second embodiment, a pressure adjustment unit 105 that is another form of the first embodiment will be described with reference to FIGS. 5 and 6. In the second embodiment, the same configuration as that of the first embodiment is described with the same reference numerals in the respective drawings, and the same effect is obtained. Only the contents different from the first embodiment will be described below.

  As shown in FIG. 5, the pressure adjusting unit 105 is different from the pressure adjusting unit 5 in a plate-like part 150 formed integrally with the fixed part 50 inside the fixed part 50. The plate-like portion 150 is slack with respect to the cross section of the housing 11 in a state where it is installed so as to fill the hole 113. The plate-like portion 150 shown in FIG. 5 is provided so that the area of the longitudinal section is larger than the plate-like portion 51 of the pressure adjusting portion 5 shown in FIG. Further, the plate-like portion 150 is provided so as to have a larger surface area than the plate-like portion 51. The cross-sectional shape of the sagging plate-like portion 150 may be a shape that protrudes outward with respect to the housing 11 or a shape that protrudes inward. The plate-like portion 150 may be formed of a material that is easily elastically deformed, and may be a material that is not easily elastically deformed, such as a resin plate material or a thin metal plate, as long as it can be deformed by an external force. Good.

  The pressure adjusting unit 105 is configured such that a fluid containing gas cannot pass through. The pressure adjusting unit 105 is fixed to the housing 11 so as to cover the hole 113 and block gas from entering and exiting through the hole 113. The plate-like portion 150 is also a film-like body that is displaceable with respect to the hole 113 because only the outer peripheral edge is formed integrally with the fixed portion 50.

  As shown in FIG. 6, the pressure adjustment unit 105 is flexible with respect to the volume change of the gas in the housing 11 by the deformation of the plate-like part 150 according to the expansion state and contraction state of the gas in the housing 11. Can respond. The pressure adjusting unit 105 indicated by a solid line in FIG. 6 is in an expanded state in which the volume of gas in the housing 11 is increased due to a temperature change or the like. Since the internal pressure of the housing 11 is larger than the external pressure, the pressure adjusting unit 105 in the expanded state is deformed so as to expand outward or rearward. The pressure adjusting unit 105 can accommodate the volume of the increase in internal gas in the housing 11 by the amount that the plate-like part 150 is bent outward.

  The pressure adjusting unit 105 indicated by a broken line in FIG. 6 is in a contracted state in which the volume of the gas in the housing 11 is reduced due to a temperature change or the like. Since the internal pressure of the housing 11 is smaller than the external pressure, the pressure adjusting unit 105 in the contracted state is deformed so as to be recessed toward the inside or the front of the housing 11. The pressure adjusting unit 105 can form a volume that follows the volume of the decrease in internal gas by the amount that the plate-like part 150 is bent inward of the housing 11 in this way. Such bulging outward or inward is caused by the slack portion of the plate-like portion 150 in the natural state shown in FIG. 5, and the plate-like portion 150 is deformed according to an external force without being elastically deformed. Is possible.

  According to the pressure adjusting unit 105 of the third embodiment, the plate-like portion 150 that is a plate-like body filling the hole 113 is provided so that the gas in the housing 11 sags in a state where neither the expanded state nor the contracted state is present. ing. According to this, since the plate-like portion 150 is slackened in advance in a state where no external force is applied to the plate-like portion 150, the plate-like portion 150 can be manufactured even from a material that does not elastically deform or expand and contract. .

(Third embodiment)
In the third embodiment, a pressure adjustment unit 205 which is another form of the first embodiment will be described with reference to FIGS. In the third embodiment, the same configurations as those of the first embodiment are described with the same reference numerals in the respective drawings, and the same effects are obtained. Only the contents different from those of the first embodiment will be described below.

  As shown in FIG. 7, the pressure adjustment unit 205 is different from the pressure adjustment unit 5 in the configuration capable of following the volume change of the internal gas in the housing 11. The housing 11 of the third embodiment includes a cylindrical protrusion 114 having a hole 113 formed therein. The cylindrical projecting portion 114 projects rearward from the intermediate flat portion 111. The cylindrical protruding portion 114 has a flange portion 114a that protrudes radially outward from the cylindrical portion at the rear side portion.

  The pressure adjustment unit 205 is a cap provided so as to cover the cylindrical protrusion 114 from the outside. The pressure adjusting unit 205 includes a lid part 205a that covers the hole 113 from the outside, a ring-shaped part 205c that is spaced apart and opposed to the lid part 205a in the axial direction, and the lid part 205a and the ring-shaped part 205c in the axial direction. It has the cylindrical part 205b to connect, and is integrally formed. The material of the pressure adjusting unit 205 is not particularly limited, and may be a form that does not elastically deform.

  The pressure adjusting unit 205 can be displaced in the axial direction of the cylindrical protruding part 114 with respect to the cylindrical protruding part 114 according to the expanded state and the contracted state of the gas in the housing 11. As shown in FIGS. 7 to 9, the pressure adjusting unit 205 is attached to the cylindrical projecting portion 114 with a flange portion 114 a interposed between the lid portion 205 a and the ring-shaped portion 205 c. . That is, the pressure adjusting unit 205 is provided in the housing 11 so that the flange portion 114a is held by the lid portion 205a, the cylindrical portion 205b, and the ring-shaped portion 205c.

  With this configuration, the pressure adjusting unit 205 can be displaced along the axial direction from the position where the ring-shaped part 205c contacts the flange part 114a to the position where the lid part 205a contacts the flange part 114a. The ring-shaped portion 205c functions as a separation restricting portion that restricts movement in the direction in which the lid portion 205a separates from the distal end portion of the cylindrical projecting portion 114 by contacting the flange portion 114a. Furthermore, the cover part 205a functions as an approach restricting part that restricts movement in the direction in which the cover part 205a approaches the tip of the cylindrical projecting part 114.

  As shown in FIG. 8, the pressure adjustment unit 205 in a state where the internal gas of the housing 11 is expanded has the ring-shaped portion 205 c in contact with the flange portion 114 a because the internal pressure of the housing 11 is larger than the external pressure. Displaced outward or rearward. The pressure adjusting unit 205 can accommodate the volume of the increase in internal gas in the housing 11 by the amount displaced outward.

  As shown in FIG. 9, the pressure adjustment unit 205 in the contracted state where the internal gas of the housing 11 is small is such that the internal pressure of the housing 11 is smaller than the external pressure, so that the lid 205 a contacts the flange 114 a. Displaced inward or forward. The pressure adjusting unit 205 can form a volume that follows the volume of the decrease in internal gas by the amount displaced inward.

  The pressure adjusting unit 205 according to the third embodiment is provided in the housing 11 so as to cover the hole 113 and block gas from entering and exiting through the hole 113. The pressure adjusting unit 205 is displaced with respect to the housing 11 according to the expanded state and contracted state of the gas in the housing 11.

  According to this configuration, the pressure adjustment unit 205 blocks gas from entering and exiting through the hole 113 of the housing 11. For this reason, since the pressure adjustment part 205 can suppress that the foreign material from the exterior penetrate | invades in the housing 11, it can prevent the malfunctioning of the vehicle alarm device 1 by the penetration | invasion of a foreign material. Furthermore, the pressure adjusting unit 205 has a configuration that is displaced with respect to the housing 11 according to the expanded state and contracted state of the gas in the housing 11. For this reason, for example, when the volume of gas in the housing 11 is reduced, the gas moves in the housing 11 such that the movable iron core 4 is forcibly moved to the fixed iron core 22 side by displacing to the hole 113 side. Can be suppressed. Due to this effect, the external force applied to the movable iron core 4 due to the contraction of the gas in the housing 11 can be suppressed to prevent the opening / closing operation failure of the contact portion, so that it is possible to suppress changes in characteristics that change the tone color of the alarm sound.

  The housing 11 includes a cylindrical protrusion 114 having a hole 113 formed therein. The pressure adjustment unit 205 is a cap provided so as to cover the cylindrical protrusion 114 from the outside. The pressure adjusting unit 205 is displaced in the axial direction of the cylindrical protruding part 114 with respect to the cylindrical protruding part 114 according to the expanded state and contracted state of the gas in the housing 11. According to this configuration, the cap moves in the axial direction so as to be separated from the distal end portion of the cylindrical projecting portion 114 in the expanded state of the internal gas, and approaches the distal end portion of the cylindrical projecting portion 114 in the contracted state of the gas. So that it can move in the axial direction. By this action, it is possible to provide the pressure adjusting unit 205 that can absorb the volume change of the internal gas of the housing 11.

  The pressure adjusting unit 205 includes a separation regulating unit that regulates movement in the separating direction and an approach regulating unit that regulates movement in the approaching direction with respect to the flange portion 114a on the distal end side of the cylindrical protrusion 114. I have. According to this configuration, it is possible to provide the pressure adjusting unit 205 that can absorb the volume change of the internal gas by an amount corresponding to the volume of the pressure adjusting unit 205 formed between the separation regulating unit and the approach regulating unit. Therefore, it is possible to provide the pressure adjusting unit 205 capable of setting the ability to absorb the volume change of the internal gas by changing the separation distance between the separation restriction unit and the approach restriction unit.

(Fourth embodiment)
4th Embodiment demonstrates the pressure adjustment part 305 which is another form of 1st Embodiment with reference to FIGS. 10-12. In the fourth embodiment, the same configurations as those of the above-described embodiment are described with the same reference numerals in the respective drawings, and the same effects are obtained. Only the contents different from those of the above-described embodiment will be described below.

  As shown in FIG. 10, the pressure adjustment unit 305 is different from the pressure adjustment unit 5 in the mounting structure with respect to the housing 11. As in the third embodiment, the housing 11 of the fourth embodiment includes a cylindrical protrusion 114 having a hole 113 formed inside.

  The pressure adjusting unit 305 is a cap fixed to the cylindrical projecting portion 114 so as to cover the cylindrical projecting portion 114 from the outside. The pressure adjusting unit 305 includes a lid part 305a that covers the hole 113 from the outside in contact with the flange part 114a, a ring-shaped part 305c that is opposed to the lid part 305a in the axial direction, and a lid part 305a. It has a cylindrical part 305b that connects the ring-shaped part 305c in the axial direction and is integrally formed. The pressure adjusting unit 305 is made of an elastically deformable material. The pressure adjustment part 305 is fixed to the housing 11 by supporting the flange part 114a from both sides by the lid part 305a and the ring-shaped part 305c. The lid portion 305a is not elastically deformed in a state where the gas contained in the housing 11 is neither in a state of expansion nor in a state of contraction, that is, in a natural state where no external force is applied to the lid portion 305a. Is provided. According to this configuration, it is possible to improve workability when the pressure adjusting unit 305 is fixed to the housing 11.

  The pressure adjusting unit 305 can flexibly cope with a change in the volume of the gas in the housing 11 by deforming the lid 305a according to the expanded state and contracted state of the gas in the housing 11. The state shown in FIG. 11 is an expanded state in which the volume of gas in the housing 11 is increased due to a temperature change or the like. Since the internal pressure of the housing 11 is larger than the external pressure, the pressure adjusting unit 305 in the expanded state is deformed so that the lid 305a expands outward or rearward. The pressure adjusting unit 305 can accommodate the volume of the increased internal gas in the housing 11 as much as the lid 305a is bent outward.

  The state shown in FIG. 12 is a contracted state in which the volume of gas in the housing 11 is reduced due to a temperature change or the like. Since the internal pressure of the housing 11 is smaller than the external pressure, the pressure adjusting unit 305 in this contracted state is bent and elastically deformed so that the lid 305a is recessed toward the inside of the housing 11 or toward the front. The pressure adjusting unit 305 can form a volume that follows the volume of the reduced internal gas by the amount that the lid 305a is bent toward the inside of the housing 11 in this way.

  The pressure adjusting unit 305 according to the fourth embodiment is a cap that has a lid portion 305 a that covers the distal end portion of the cylindrical protruding portion 114 from the outside and is fixed to the cylindrical protruding portion 114. In the pressure adjusting unit 305, the lid 305a is elastically deformed according to the expanded state and contracted state of the gas in the housing 11.

  According to this configuration, the pressure adjusting portion 305 has the lid portion 305a that covers the distal end portion of the cylindrical protruding portion 114 from the outside and is fixed to the cylindrical protruding portion 114. Therefore, the inside and outside of the housing 11 through the hole 113 are provided. It is possible to block the entry and exit of gas. For this reason, since the pressure adjustment part 305 can suppress that the foreign material from the exterior penetrate | invades in the housing 11, it can prevent the malfunctioning of the vehicle alarm device by the penetration | invasion of a foreign material. Furthermore, since the pressure adjusting unit 305 elastically deforms the cover 305a according to the expanded state and contracted state of the gas in the housing 11, for example, when the volume of the gas in the housing 11 is reduced, the internal gas It plays a function of absorbing volume changes.

(Fifth embodiment)
5th Embodiment demonstrates the pressure adjustment part 405 which is another form of 1st Embodiment with reference to FIGS. 13-16. In the fifth embodiment, the same configurations as those of the above-described embodiment are described with the same reference numerals in the respective drawings, and the same effects are obtained. Only the contents different from those of the above-described embodiment will be described below.

  As shown in FIGS. 13 and 14, the pressure adjustment unit 405 is different from the pressure adjustment unit 305 in the mounting structure with respect to the housing 11. The pressure adjustment unit 405 is a cap that is fitted into the hole 113 and fixed to the housing 11. The pressure adjusting unit 405 includes a lid 405a that covers the hole 113 from the outside in contact with the flange 114a, a ring-shaped portion 405c that faces the lid 405a while being spaced apart in the axial direction, and a lid 405a. It has a cylindrical part 405b that connects the ring-shaped part 405c in the axial direction and is integrally formed. The pressure adjusting unit 405 is made of an elastically deformable material.

  The cylindrical portion 405b is fitted in the hole 113. The lid portion 405a is provided with an annular lip 405a1 that protrudes toward the ring-shaped portion 405c. The pressure adjusting portion 405 is fixed to the housing 11 by supporting the flange portion 114a so as to be sandwiched from both sides by the lip 405a1 and the ring-shaped portion 405c of the lid portion 405a. The lid portion 405a is not elastically deformed in a state where the gas contained in the housing 11 is neither in a state of expansion nor in a state of contraction, that is, in a natural state where no external force is applied to the lid portion 405a. Is provided.

  The pressure adjusting unit 405 can flexibly cope with a change in volume of the gas in the housing 11 by deforming the lid 405a according to the expanded state and contracted state of the gas in the housing 11. The state shown in FIG. 15 is an expanded state in which the volume of gas in the housing 11 is increased due to a temperature change or the like. Since the internal pressure of the housing 11 is larger than the external pressure, the pressure adjusting unit 405 in this expanded state is deformed so that the lid 405a expands outward or rearward. The pressure adjusting unit 405 can accommodate the volume of the increased internal gas in the housing 11 as much as the lid portion 405a is bent outward.

  The state shown in FIG. 16 is a contracted state in which the volume of gas in the housing 11 is reduced due to a temperature change or the like. Since the pressure inside the housing 11 is smaller than the external pressure, the pressure adjusting portion 405 in this contracted state is bent and elastically deformed so that the lid 405a is recessed toward the inside or the front of the housing 11. The pressure adjusting unit 405 can form a volume that follows the volume of the decrease in the internal gas by the amount that the lid 405a is bent toward the inside of the housing 11 as described above.

  According to the fifth embodiment, the pressure adjustment unit 405 is a cap that includes a lid 405 a that covers the hole 113 from the outside and a cylindrical part 405 b that is fitted in the hole 113. In the pressure adjusting unit 405, the lid 405 a is elastically deformed according to the expanded state and contracted state of the gas in the housing 11. According to this configuration, the pressure adjusting portion 405 has the lid portion 405a that covers the hole 113 from the outside and is fixed to the housing 11 by the fitting means, so that the gas in and out of the housing 11 through the hole 113 enters and exits. Can be reliably shut off. For this reason, since the pressure adjustment part 405 can suppress that the foreign material from the outside penetrate | invades in the housing 11, it can prevent the malfunctioning of the vehicle alarm device by the penetration | invasion of a foreign material. Further, since the lid 405a is elastically deformed according to the expansion state and contraction state of the gas in the housing 11, for example, when the volume of the gas in the housing 11 is reduced, the pressure adjustment unit 405 follows this, It plays a function of absorbing volume changes.

  The pressure adjusting unit 405 includes a clamping unit that supports the peripheral portion of the hole 113 in the housing 11 so as to be sandwiched from both the inside and the outside of the housing 11. According to this configuration, the pressure adjusting unit 405 is fixed to the housing 11 by the clamping unit that sandwiches and supports the peripheral part of the hole 113, so that gas in and out of the housing 11 through the hole 113 can be reliably entered and exited. Can be blocked. Moreover, according to the fixing means by clamping, it is possible to secure a fixing force without using a fixing means such as an adhesive, and to improve workability when fixing the pressure adjusting portion 405 to the housing 11. it can.

  This clamping part preferably includes a lip 405a1 projecting annularly from the lid part 405a with respect to the peripheral part of the hole 113. According to this configuration, the adhesion per unit area on the lid portion 405a side can be enhanced, so that the pressure adjusting unit 405 with improved sealing performance can be provided.

(Other embodiments)
The disclosure of this specification is not limited to the illustrated embodiments. The disclosure encompasses the illustrated embodiments and variations by those skilled in the art based thereon. For example, the disclosure is not limited to the combination of components and elements shown in the embodiments, and various modifications can be made. The disclosure can be implemented in various combinations. The disclosure may have additional parts that can be added to the embodiments. The disclosure includes those in which the components and elements of the embodiment are omitted. The disclosure encompasses parts, element replacements, or combinations between one embodiment and another. The technical scope disclosed is not limited to the description of the embodiments. The technical scope disclosed is indicated by the description of the scope of claims, and should be understood to include all modifications within the meaning and scope equivalent to the description of the scope of claims.

  The pressure adjusting unit provided in the vehicle alarm device capable of achieving the object disclosed in this specification is a rubber plate-like body fixed to the housing 11 so as to fill the hole 113, and allows a fluid containing gas to pass therethrough. It is made of a material that cannot.

  The vehicle alarm device capable of achieving the object disclosed in this specification has a pressure adjusting portion that deforms according to the expanded state and contracted state of the gas in the housing 11, and this pressure adjusting portion is elastically deformed. It is not limited to things. For example, a vehicle warning device including the pressure adjusting unit 205 of the third embodiment formed of a material that does not elastically deform may be used.

3 ... diaphragm, 4 ... movable iron core,
5, 105, 205, 305, 405 ... Pressure adjusting part 11 ... Housing, 20 ... Coil, 22 ... Fixed iron core, 113 ... Hole

Claims (10)

A housing (11);
A coil (20) housed in the housing and generating a magnetic force by energization;
A fixed iron core (22) housed in the housing;
A movable iron core (4) that is displaced in an axial direction toward the fixed iron core by a magnetic attraction generated by energization of the coil;
A diaphragm (3) fixed to the housing and the movable iron core, and vibrates in accordance with the axial displacement of the movable iron core to vibrate air;
The hole (113) provided in the housing is covered so as to block the flow of gas through the hole, and is deformed according to the expanded state and contracted state of the gas in the housing. A pressure regulator (5; 105; 305; 405);
Vehicular audible alarm.   2. The vehicle sounder according to claim 1, wherein the pressure adjusting portion (5; 105) is a rubber plate-like body fixed to the housing so as to fill the hole portion penetrating the housing.   The vehicle sounder according to claim 2, wherein the plate-like body is provided such that the gas in the housing sags in a state where neither the expanded state nor the contracted state is present. The housing includes a cylindrical protrusion (114) having the hole formed therein,
The pressure adjusting part (305) is a cap that has a lid part (305a) that covers the distal end part (114a) of the cylindrical projecting part from the outside and is fixed to the cylindrical projecting part, The vehicle sounder according to claim 1, wherein the lid portion is elastically deformed according to a gas expansion state and a contraction state.   The pressure adjusting part (405) is a cap having a lid part (405a) covering the hole part from the outside and a cylindrical part (405b) fitted in the hole part, and the expansion of the gas in the housing The vehicle alarm device according to claim 1, wherein the lid portion is elastically deformed according to a state and a contracted state.   6. The vehicle sounder according to claim 5, wherein the pressure adjusting unit includes a clamping portion that supports a peripheral portion of the hole portion in the housing so as to be sandwiched from both the inside and the outside of the housing.   The vehicle clamping device according to claim 6, wherein the clamping portion includes a lip (405a1) projecting annularly from the lid portion with respect to the peripheral portion of the hole portion. A housing (11);
A coil (20) housed in the housing and generating a magnetic force by energization;
A fixed iron core (22) housed in the housing;
A movable iron core (4) that is displaced in an axial direction toward the fixed iron core by a magnetic attraction generated by energization of the coil;
A diaphragm (3) fixed to the housing and the movable iron core, and vibrates in accordance with the axial displacement of the movable iron core to vibrate air;
Covering the hole (113) provided in the housing and blocking the gas flow through the hole, the housing is provided, and according to the expansion state and contraction state of the gas in the housing, A pressure adjuster (205) that is displaced relative to the housing;
Vehicular audible alarm. The housing includes a cylindrical protrusion (114) having the hole formed therein,
The pressure adjusting unit is a cap provided so as to cover the cylindrical projecting portion from the outside, and the tubular shape with respect to the cylindrical projecting portion according to an expanded state and a contracted state of gas in the housing. The vehicle alarm device according to claim 8, which is displaced in an axial direction of the protruding portion.   The pressure adjusting unit includes a separation regulating unit (205c) that regulates movement in a separating direction with respect to a distal end portion (114a) of the cylindrical projecting portion, and an approach regulating unit that regulates movement in an approaching direction. The vehicle alarm device according to claim 9, further comprising (205a).

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